DSPIC33FJ128MC506-I/PT Microchip Technology Inc., DSPIC33FJ128MC506-I/PT Datasheet - Page 269

DSPIC33FJ128MC506-I/PT

Manufacturer Part Number

DSPIC33FJ128MC506-I/PT

Description

DSP, 16-Bit, 128KB Flash, 8KB RAM, 53 I/O, TQFP-64

Manufacturer

Microchip Technology Inc.

Type

DSPr

Datasheet

1.DSPIC33FJ64MC506-IPT.pdf (370 pages)

Specifications of DSPIC33FJ128MC506-I/PT

A/d Inputs

16-Channels, 12-Bit

Comparators

Cpu Speed

40 MIPS

Eeprom Memory

0 Bytes

Input Output

Interface

CAN, I2C, SPI, UART/USART

Ios

Memory Type

Flash

Number Of Bits

Package Type

64-pin TQFP

Programmable Memory

128K Bytes

Ram Size

8K Bytes

Timers

9-16-bit, 4-32-bit

Voltage, Range

3-3.6

Lead Free Status / Rohs Status

RoHS Compliant part Electrostatic Device

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21.3.14

The amount of data that is buffered between interrupts

is determined by the Buffer Length (BLEN<1:0>) con-

trol bits in the DCICON2 SFR. The size of the transmit

and receive buffers can vary from 1 to 4 data words

using the BLEN control bits. The BLEN control bits are

compared to the current value of the DCI buffer control

unit address counter. When the 2 LSbs of the DCI

address counter match the BLEN<1:0> value, the

buffer control unit will be reset to ‘0’. In addition, the

contents of the Receive Shadow registers are trans-

ferred to the Receive Buffer registers and the contents

of the Transmit Buffer registers are transferred to the

Transmit Shadow registers.

21.3.15

There is no direct coupling between the position of the

AGU Address Pointer and the data frame boundaries.

This means that there will be an implied assignment of

each transmit and receive buffer that is a function of the

BLEN control bits and the number of enabled data slots

via the TSE and RSE control bits.

As an example, assume that a 4-word data frame is

chosen and that we want to transmit on all four time

slots in the frame. This configuration would be estab-

lished by setting the TSE0, TSE1, TSE2 and TSE3

control bits in the TSCON SFR. With this module setup,

the TXBUF0 register would naturally be assigned to

slot #0, the TXBUF1 register would naturally be

assigned to slot #1, and so on.

Note:

Note 1: DCI can trigger a DMA data transfer. If

2: If DMA transfers are required, the DCI

BUFFER ALIGNMENT WITH DATA

FRAMES

When more than four time slots are active

within a data frame, the user code must

keep track of which time slots are to be

read/written at each interrupt. In some

cases, the alignment between transmit/

receive buffers and their respective slot

assignments could be lost. Examples of

such cases include an emulation break-

point or a hardware trap. In these

situations, the user should poll the SLOT

status bits to determine what data should

be loaded into the buffer registers to

resynchronize the software with the DCI

module.

BUFFER LENGTH CONTROL

DCI is selected as a DMA IRQ source, a

DMA transfer occurs when the DCIIF bit

gets set as a result of a DCI transmission

or reception.

TX/RX buffer must be set to a size of

1 word (i.e., BLEN<1:0> = 00).

Preliminary

21.3.16

There are two transmit status bits in the DCISTAT SFR.

The TMPTY bit is set when the contents of the transmit

buffer registers are transferred to the transmit shadow

registers. The TMPTY bit may be polled in software to

determine when the transmit buffer registers may be

written. The TMPTY bit is cleared automatically by the

hardware when a write to one of the four transmit

buffers occurs.

The TUNF bit is read-only and indicates that a transmit

underflow has occurred for at least one of the transmit

buffer registers that is in use. The TUNF bit is set at the

time the transmit buffer registers are transferred to the

transmit shadow registers. The TUNF status bit is

cleared automatically when the buffer register that

underflowed is written by the CPU.

21.3.17

There are two receive status bits in the DCISTAT SFR.

The RFUL status bit is read-only and indicates that new

data is available in the receive buffers. The RFUL bit is

cleared automatically when all receive buffers in use

have been read by the CPU.

The ROV status bit is read-only and indicates that a

receive overflow has occurred for at least one of the

receive buffer locations. A receive overflow occurs

when the buffer location is not read by the CPU before

new data is transferred from the shadow registers. The

ROV status bit is cleared automatically when the buffer

When a receive overflow occurs for a specific buffer

location, the old contents of the buffer are overwritten.

Note:

TRANSMIT STATUS BITS

The transmit status bits only indicate

status for buffer locations that are used by

the module. If the buffer length is set to

less than four words, for example, the

unused buffer locations will not affect the

transmit status bits.

RECEIVE STATUS BITS

The receive status bits only indicate status

for buffer locations that are used by the

module. If the buffer length is set to less

than four words, for example, the unused

buffer locations will not affect the transmit

status bits.

dsPIC33F

DS70165E-page 267

DSPIC33FJ128MC506-I/PT Microchip Technology Inc., DSPIC33FJ128MC506-I/PT Datasheet - Page 269

DSPIC33FJ128MC506-I/PT

Specifications of DSPIC33FJ128MC506-I/PT

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